AU2019250134B2 - Device for monitoring floods in urban communities based on distribution networks - Google Patents

Abstract

A device for monitoring floods in urban communities based on distribution networks includes a signal acquisition system, a CPU module, a memory module, a display module, and an information communication module. The signal acquisition system is used for acquiring hydrological data information and current data information of a power line of a distribution network and sending the data information acquired to the CPU module. The CPU module is used for analyzing and processing the data information. The memory module is used for storing the data information sent from the CPU module. The display module is used for displaying flood warning information and/or distribution network running state warning information sent from the CPU module. The information communication module is used for sending out a flood warning message and/or a distribution network running state warning message. The device is configured synchronously with an urban distribution network power-supply system and can achieve synchronous monitoring and warning of waterlogged areas and the running state of distribution networks in urban communities. 1/1 2 5 Distribution Transformner -- -- 3- -- - -- 6-- -- ------ - 12 12 10 Figure 1

Description

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DEVICE FOR MONITORING FLOODS IN URBAN COMMUNITIES BASED ON DISTRIBUTION NETWORKS PRIORITY DOCUMENTS

[0001] The present application claims priority from Chinese Patent Application

No. CN201811200954 .1 filed on 16 October 2018, the content of which is hereby

incorporated by reference in its entirety.

TECHNICAL FIELD

[0002] The invention belongs to the fields of warning of flood disasters in urban

communities and safe power supply of urban distribution networks, and particularly

relates to a device for monitoring floods in urban communities based on distribution

networks.

BACKGROUND OF THE INVENTION

[0003] In recent years, many large and medium-sized cities frequently suffer

from flood disasters caused by rainstorms, which not only affects the normal

functions of cities and production and life orders of residents, but also leads to severe

life and property losses. Flood disasters have gained more and more attention of the

government and the public, and on this background, it has become an urgent demand

to improve the monitoring timeliness and precision of flood disasters to strengthen

flood disaster management.

[0004] Nowadays, there have already been some technical studies on warning of

urban flood disasters. For instance, Chinese Invention Patent Application No.

201310558228.8 disclosed a warning system and method for urban flood disasters,

wherein this warning system and method fulfill prediction and warning of urban flood disasters by measurement of the water level of rivers or lakes and the water level of inspection wells. Chinese Utility Model Patent Application No. 201621077081.6 disclosed an online monitoring and alarming system for urban flood disasters, wherein the warning type and level are determined according to water level data stored in a distributed manner by means of address codes of a water level sensor, and then floor-control staff can predict the water level with reference to the warning type and level. Chinese Utility Model Patent Application No. 201220594100.8 disclosed an automatic monitoring and warning device for urban flood disasters, wherein the automatic monitoring and warning device for urban flood disasters includes a waterlog monitoring device and an intelligent warning device and is used for early warning before urban flood disasters.

[0005] Urban distribution networks are core infrastructures for construction of

new urban communities and upgrading of old communities. If urban flood disaster

warning can be synchronously realized during the construction of the distribution

network infrastructures, the technical difficulty of early warning of natural flood

disasters in cities will be completely overcome, repeated construction investment will

be avoided, and the investment budget for independent construction of an urban flood

disaster system will be reduced.

BRIEF SUMMARY OF THE INVENTION

[0006] Embodiments of the invention described herein may provide a device

used for monitoring floods in urban communities based on distribution networks to

synchronously realize construction of distribution networks and early warning of

urban flood disasters and to actively provide disaster warning to remind people of

anomalies in advance so as to avoid the aggravation of potential accidents. The device for monitoring floods in urban communities based on distribution networks not only can monitor hydrological data and flood disasters in urban communities, but also can monitor the real-time running state of distribution networks in the urban communities, thereby improving the safe power supply reliability of the urban distribution networks.

[0007] According to a first aspect there is provided a device for monitoring

floods in urban communities outside a distribution room of a power distribution

networks, the device including a signal acquisition system, a CPU module, a signal

acquisition system power module, a CPU power module a memory module, a display

module, and an information communication module, wherein the signal acquisition

system, the memory module, the display module, and the information communication

module are connected with the CPU module; the signal acquisition system is used for

acquiring hydrological data information and current data information of a power line

of a distribution network and sending the data information acquired to the CPU

module; The CPU module is used for analyzing and processing the data information;

the memory module is used for storing the data information sent from the CPU

module; the display module is used for displaying flood warning information and/or

distribution network running state warning information sent from the CPU module;

and the information communication module is used for sending out a flood warning

message and/or a distribution network running state warning message.

[0008] The signal acquisition system includes a hydrological analysis module,

which in use, is located in a flood prone area outside the distribution room used for

monitoring and acquiring hydrological data in relation to the flood prone area, a video

functional module, which in use, is, located outside the distribution room used for

performing video monitoring of the flood prone area, a data acquisition module used for acquiring data and realizing digital-analog conversion, and a current detection module used for detecting the current of the power line of the distribution network.

The hydrological analysis module, the video functional module and the current

detection module are connected to the data acquisition module so as to transmit data

information to the data acquisition module, and the data acquisition module is

connected with the CPU module and transmits the data information to the CPU

module.

[0009] The device for monitoring floods in urban communities based on

distribution networks further includes a signal acquisition system power module and a

CPU power module, the signal acquisition system power module supplies power to

the signal acquisition system, and the CPU power module supplies power to the CPU

module, the memory module, the display module and the information communication

module.

[0010] The signal acquisition system power module and the CPU power module

are mutually backed up, so that when one of the signal acquisition system power

module and the CPU power module breaks down, the other one of the signal

acquisition system power module and the CPU power module is used for supplying

power.

[0011] Preferably, the hydrological analysis module includes a water level

sensor.

[0012] Preferably, the video functional module starts to run when the CPU

module determines that the hydrological data information acquired by the

hydrological analysis module exceeds a flood alarm value, so as to realize real-time

video monitoring of a waterlogged area.

[0013] Preferably, the current detection module includes a current transformer which is disposed around the power line of the distribution network.

[0014] Preferably, the signal acquisition system power module and the CPU

power module are DC power modules, obtain power directly from an urban

distribution network power-supply system, and respectively output 5V power and 24V

power after rectification, filtering and voltage stabilization.

[0015] Preferably, the information communication module starts when the CPU

module determines that the hydrological data information acquired by the

hydrological analysis module exceeds a flood alarm value, and/or the current detected

by the current detection module exceeds a limit value.

[0016] Preferably, the current detection module is arranged on the power line of

the distribution network.

[0017] Preferably, the CPU module, the memory module, the display module

and the information communication module are, in use, located in the distribution

room of an urban community.

[0018] Preferably, the data acquisition module is, in use, located in the

distribution room of an urban community.

[0019] [THIS PARAGRAPH HAS BEEN DELIBERATELY LEFT BLANK].

[0020] Preferably, the video functional module has a night vision function.

[0021] Preferably, the display module includes an integrated LCD.

[0022] The device for monitoring floods in urban communities based on

distribution networks not only can monitor flood disasters in urban communities, but

also can monitor the running state of distribution networks synchronously, so that the

facility construction cost of the urban communities is greatly reduced, the safe power

supply reliability of urban distribution networks is improved, early warning of urban

flood disasters is strengthened, and the safety of urban production and life is guaranteed.

BRIEF DESCRIPTION OF DRAWINGS

[0023] FIG. 1 is a composition diagram of a device for monitoring floods in

urban communities based on distribution networks of the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0024] The technical solution for specific implementations of the invention is

clearly and completely described below with reference to the accompanying drawing.

[0025] FIG. 1 shows a composition diagram of the device for monitoring floods

in urban communities based on distribution networks of the invention. The device for

monitoring floods in urban communities based on distribution networks (hereinafter

referred to as device) mainly includes a signal acquisition system, a CPU module 6, a

memory module 7, a display module 9, and an information communication module 10.

The signal acquisition system, the memory module 7, the display module 9 and the

information communication module 10 are connected with the CPU module 6.

[0026] The device further includes a signal acquisition system power module 4

and a CPU power module 8, wherein the signal acquisition system power module 4

supplies power to the signal acquisition system, and the CPU power module 8

supplies power to the CPU module 6, the memory module 7, the display module 9 and

the information communication module 10.

[0027] The signal acquisition system includes a hydrological analysis module 1,

a video functional module 2, a data acquisition module 3, and a current detection

module 5, wherein the hydrological analysis module 1, the video functional module 2,

and the current detection module 5 are connected to the data acquisition module 3 and

transmit data information to the data acquisition module 3, and the data acquisition module 3 is connected with the CPU module 6 and transmits the data information to the CPU module 6.

[0028] The hydrological analysis module 1 is installed in a waterlogged area

prone to flooding near a distribution room 11 (the dashed box in FIG. 1) so as to

monitor hydrological data of this area and includes a water level sensor used for

monitoring the water level, wherein the water level sensor can be, for instance, an

immersible water level sensor DATA-51.

[0029] The video functional module 2 is installed at a proper position where the

video functional module 2 has a video monitoring scope having the waterlogged area

to be monitored included therein. For instance, the video functional module 2 is

installed at the top of a tower 12 or at a position close to the top of the tower 12. The

video functional module 2 preferably has a night vision function so as to achieve clear

video monitoring of the waterlogged area when necessary.

[0030] The current detection module 5 is installed on a power line of a

distribution network, is used for monitoring the current of the power line of the

distribution network, and includes a current transformer disposed around the power

line of the distribution network. The current transformer in this application is, for

instance, an indoor/outdoor intra-cabinet cast 10KV high-tension current transformer

LZZBJ9-1OA5-600/5.

[0031] The data acquisition module 3 is preferably arranged in the distribution

room and is used for acquiring data and realizing digital-to-analog conversion. The

data acquisition module 3 is preferably a high-precision 24-bit acquisition card with

an adjustable sampling frequency and is provided with a USB interface to facilitate

function and parameter configuration.

[0032] The CPU module 6 receives data from the data acquisition module 3 and then analyzes and processes the data.

[0033] The memory module 7 stores data results sent from the CPU module 6,

and data in the memory module 7 can be regularly updated as actually demanded. The

memory module 7 is preferably a system supporting standard FAT files, is internally

provided with a Micro SD card slot suitable for SD cards and MMC cards, and

supports computer reading and writing, and the file reading speed and the available

capacity of the memory module 7 can be expanded.

[0034] The display module 9 displays monitoring data information and/or

warning information from the CPU module 6 in real time and is preferably an

integrated LCD. The information communication module 10 sends a warning message

when necessary, preferably adopts a direct-plug 4G SIM card for communication and

a WIFI module, supports 4PIN internet access, and is provided with a strip lamp

series port.

[0035] The hydrological data acquired by the hydrological analysis module 1

(including the water level information data monitored by the water level sensor)and

the current data monitored by the current detection module 5 are transmitted to the

data acquisition module 3 to be pre-screened by the data acquisition module 3 and are

then transmitted to the CPU module 6 to be further analyzed and processed by the

CPU module 6.

[0036] When the CPU module 6 determines that the hydrological data acquired

by the hydrological analysis module 1 exceeds a flood alarm value, or the current

detected by the current detection module 5 exceeds a limit value or, or the

hydrological data acquired by the hydrological analysis module 1 exceeds the flood

alarm value and the current detected by the current detection module 5 exceeds the

limit value, the information communication module 10 starts to run to send out a flood warning message and/or a distribution network abnormal operation warning message.

[0037] Once the CPU module 6 determines that the hydrological data acquired

by the hydrological analysis module 1 exceeds the flood alarm value, the video

functional module 2 start to run to perform real-time video monitoring of the

hydrological condition in the waterlogged area. After completing video confirmation

by means of the video functional module 2 or further field confirmation, residents or

flood-control staff can inform and warn more residents and flood-control staff through

text messages or in other ways, and thus, possible negative influences caused by

disasters are reduced or even avoided.

[0038] The signal acquisition system power module 4 and the CPU power

module 8 are DC power modules, preferably obtain electric power directly from an

urban distribution network power-supply system, and respectively output 5V power

and 24V power after rectification, filtering and voltage stabilization. The signal

acquisition system power module 4 and the CPU power module 8 are mutually

backed up, so that when one of the signal acquisition system power module 4 and the

CPU power module 8 breaks down, the other one can be used for supplying power,

and accordingly, the operating reliability of the device is improved.

[0039] The specific implementation of the device for monitoring floods in urban

communities based on the distribution networks of the invention is detailed above in

combination with the accompanying drawing, but the invention is not limited to the

specific implementation mentioned above. Various improvements and modifications

of the invention can be achieved without deviating from the principle of the invention,

and all these improvements and transformations should also fall within the protection

scope of the claims of the invention.

[0040] Throughout the specification and the claims that follow, unless the

context requires otherwise, the words "comprise" and "include" and variations such as

"comprising" and "including" will be understood to imply the inclusion of a stated

integer or group of integers, but not the exclusion of any other integer or group of

integers.

[0041] The reference to any prior art in this specification is not, and should not

be taken as, an acknowledgement or any form of suggestion that such prior art forms

part of the common general knowledge.

Claims (12)

1. A device for monitoring floods in urban communities outside a distribution room of a power distribution networks, the device including a signal acquisition system, a

CPU module, a signal acquisition system power module, a CPU power module, a

memory module, a display module, and an information communication module,

wherein the signal acquisition system, the memory module, the display module and

the information communication module are connected with the CPU module; the

signal acquisition system is used for acquiring hydrological data information and

current data information of a power line of a distribution network and sending the data

information acquired to the CPU module; the CPU module is used for analyzing and

processing the data information the memory module is used for storing the data

information sent from the CPU module; the display module is used for displaying

flood warning information and/or distribution network running state warning

information sent from the CPU module; and the information communication module

is used for sending out a flood warning message and/or a distribution network running

state warning message,

wherein the signal acquisition system includes a hydrological analysis module

which in use, is located in a flood prone area outside the distribution room, and used

for monitoring and acquiring hydrological data in relation to the flood prone area, a

video functional module, which in use, is located outside the distribution room used

for performing video monitoring of the flood prone area, a data acquisition module

used for acquiring data and realizing digital-analog conversion, and a current

detection module used for detecting a current of the power line of the distribution

network; wherein the hydrological analysis module, the video functional module and

the current detection module are connected to the data acquisition module so as to

transmit data information to the data acquisition module, and the data acquisition

module is connected with the CPU module and transmits the data information to the

CPU module, and the signal acquisition system power module supplies power to the

signal acquisition system, and the CPU power module supplies power to the CPU

module, the memory module, the display module and the information communication module, and the signal acquisition system power module and the CPU power module are mutually backed up, so that when one of the signal acquisition system power module and the CPU power module breaks down, the other one of the signal acquisition system power module and the CPU power module is used for supplying power.

2. The device for monitoring floods in urban communities outside a distribution room of a power distribution networks according to Claim 1, wherein the hydrological analysis module includes a water level sensor.

3. The device for monitoring floods in urban communities outside a distribution room of a power distribution networks according to Claim 1, wherein the video functional module starts to run when the CPU module determines that the hydrological data information acquired by the hydrological analysis module exceeds a flood alarm value, so as to realize real-time video monitoring of the flood prone area.

4. The device for monitoring floods in urban communities outside a distribution room of a power distribution networks according to Claim 1, wherein the current detection module includes a current transformer which is disposed around the power line of the distribution network.

5. The device for monitoring floods in urban communities outside a distribution room of a power distribution networks according to Claim 1, wherein the signal acquisition system power module and the CPU power module are DC power modules, obtain power directly from an urban distribution network power-supply system, and respectively output 5V power and 24V power after rectification, filtering and voltage stabilization.

6. The device for monitoring floods in urban communities outside a distribution room of a power distribution networks according to Claim 1, wherein the information communication module starts when the CPU module determines that the hydrological data information acquired by the hydrological analysis module exceeds a flood alarm value, and/or the current detected by the current detection module exceeds a limit value.

7. The device for monitoring floods in urban communities outside a distribution room

of a power distribution networks according to Claim 1 or 4, wherein the current

detection module is arranged on the power line of the distribution network.

8. The device for monitoring floods in urban communities outside a distribution room

of a power distribution networks according to Claim 1, wherein the CPU module, the

memory module, the display module and the information communication module are

in use, located in the distribution room.

9. The device for monitoring floods in urban communities outside a distribution room

of a power distribution networks according to Claim 1, wherein, in use, the data

acquisition module is located in the distribution room.

10. The device for monitoring floods in urban communities outside a distribution

room of a power distribution networks according to Claim 1, wherein, in use, the

video functional module is installed on a tower located outside the distribution room

to provide video monitoring of the flood prone area.

11. The device for monitoring floods in urban communities outside a distribution

room of a power distribution networks according to Claim 1, wherein the video

functional module has a night vision function.

12. The device for monitoring floods in urban communities outside a distribution

room of a power distribution networks according to Claim 1, wherein the display

module includes an integrated LCD.